Award List:

The primary objective of this research is to establish a design for a lightweight, 25 hp, diesel fuel engine that will provide good field performance, including low temperature starting. additional objectives are to provide a high power-to-weight ration, a quiet and cool exhaut, improve efficiency… More

The objective of this research is to verify a new, lightweight fuel injection (atomizing) technique for heavy fuel engines JP-5, JP-8 and diesel). The primary goal is to provide a very lightweight system, with cold start capability and good performance, that is suitable for Unmanned Air Vehicle… More

"The objective of this program is to establish a spark ignited engine that will run on heavy fuel (JP-5, JP-8) without the need for volatile additives. This internal combustion engine will demonstrate a high power-to-weight ratio, high fuel efficiency,good durability, cold starting capability and… More

This program will improve the size, weight and efficiency of power generators by integrating a lightweight, high efficiency alternator with a quiet, fuel efficient and high power density heavy fuel engine. It will be capable of meeting DoD needs for reliable and efficient propulsion and power… More

This program will integrate a lightweight, high efficiency alternator with a quiet, fuel efficient and high power density heavy fuel engine. The electrical power source uses a proprietary, compact and very high power-to-weight alternator using rare earth permanent magnets. It is scalable from 0.5… More

This program will establish a very quiet, fuel efficient and high power density engine and generator that can operate on JP-8 and diesel. It will be significantly lighter than existing engines and generators. The proposed approach will use an internally supercharged variant of the Migrating… More

Develop a high power to weight, compact, heavy fuel MCC engine using advanced high strength materials. This new MCC engine design will also offer high durability and high efficiency with an extremely low acoustic and IR signature for use in future small UAVs. The overall objective of this Phase I… More